Programmable and program-controlled smart cooking machine

ABSTRACT

A programmable controlled intelligent cooking machine comprises: a housing and a wok arranged inside of the housing, electromagnetic heating coils, a wok rotating device, a wok working position controlling device, a wok lid and a wok lid controlling device, an electromagnetic heating controlling device, an ingredient feeding device, an accessory ingredient adding device, a dish discharging device, a wok washing device and a control device, wherein the electromagnetic heating coils wind around the external wall of the wok and heat the wok under the control of the electromagnetic heating controlling device; the wok working position controlling device is used for driving the wok to rotate to respective working positions to perform respective operations; the electrical control device is used for receiving preset recipe commands and sending corresponding control commands; the other devices are connected with the control device respectively so as to receive control commands.

FIELD OF THE INVENTION

The present invention relates to the technical field of intelligenthousehold electrical appliance, more particularly to a programmablecontrolled intelligent cooking machine.

BACKGROUND OF THE INVENTION

Chinese culinary art is extensive and profound and has a variety ofcooking techniques, which mainly comprise: stir frying, stewing, deepfrying, boiling, steaming, pan frying, grilling, etc. The essence ofvarious cooking techniques is to cook ever-changing dishes with varioustastes and flavors by changing food match and controlling heating. Up tonow, cooking process involves a lot of manual labor and relies very muchon the cooker's experience and skills.

There exists some automated cooking machines, however, they normallycannot realize fully-automatic operation from feeding raw ingredientsinto the wok till pouring the cooked food out of the wok. Moreparticularly, existing automated cooking machines cannot automaticallypour the cooked food out of the wok or put accessory ingredients and rawfood easily, and thus manual operation is still required during thecooking process. In addition, existing automatic operation program onlyhas single function to cook dishes with same flavor and cannot bepopular used.

SUMMARY OF THE INVENTION

The present invention aims to provide a programmable controlledintelligent cooking machine, which is capable of running recipe programprogrammed with various general recipe commands, and interpreting andexecuting the recipe program in sequence according to the commands. Ithas good compatibility and may realize full automatic cooking withminimum manual intervention.

In order to achieve the above goal, the present invention provides aprogrammable controlled intelligent cooking machine, comprising: ahousing and a wok arranged inside of the housing, electromagneticheating coils, a wok rotating device, a wok working position controllingdevice, a wok lid and a wok lid controlling device, an electromagneticheating controlling device, an automatic ingredient feeding device, anautomatic accessory ingredient adding device, an automatic dishdischarging device, an automatic wok washing device and an electricalcontrol device, wherein the electromagnetic heating coils wind aroundthe external wall of the wok and heat the wok under the control of theelectromagnetic heating controlling device; the wok rotating device isconnected with the wok so as to control the wok to rotate; the wokworking position controlling device is used for securing the wok andcontrolling the wok to rotate, so as to drive the wok to rotate torespective working positions to perform respective operations; theelectrical control device is used for receiving preset recipe commandsand sending corresponding control commands according to the recipecommands; the wok rotating device, the wok working position controllingdevice, the wok lid controlling device, the electromagnetic heatingcontrolling device, the automatic ingredient feeding device, theautomatic accessory ingredient adding device, the automatic dishdischarging device and the automatic wok washing device are connectedwith the electrical control device respectively, and perform respectiveoperations according to the received control commands, thereby realizingfull-automatic cooking.

Preferably, the automatic ingredient feeding device is arranged rightabove the wok. It comprises an ingredient feeding sub-controllingsystem, an ingredient receiving and releasing component and aningredient feeding guide groove, wherein the ingredient feedingsub-controlling system is connected with the electrical control deviceso as to receive major ingredient feeding control command, theingredient receiving and releasing component is used for receivingstandard packaged ingredient and releasing the received ingredient tothe wok along the ingredient feeding guide groove under the control ofthe ingredient feeding sub-controlling system.

Preferably, the electromagnetic heating controlling device comprises anelectromagnetic sub-controlling system, a wok temperature detector and ahigh frequency driving source, wherein the high frequency driving sourceis connected with the electromagnetic heating coils, the electromagneticsub-controlling system is connected with the electrical control device,so as to receive heating control command and control the intensity ofthe high frequency driving source according to the data detected by thewok temperature detector.

Preferably, the wok lid controlling device comprises a wok lidsub-controlling system, a wok lid push-pull component fixedly connectedwith the wok lid, wherein the wok lid sub-controlling system isconnected with the electrical control device, so as to receive thecontrol commands of opening or closing the wok lid and control the woklid push-pull component to pull or push the wok lid, thereby realizingthe opening and closing of the wok lid.

Preferably, the automatic accessory ingredient adding device comprisesan ingredient adding sub-controlling system, an accessory ingredientpumping component and an accessory ingredient conduction pipe, whereinthe ingredient adding sub-controlling system is connected with theelectrical control device so as to receive the control commands ofadding accessory ingredients, the wok lid is provided with an openingfor connecting the accessory ingredient conduction pipe, the accessoryingredient pumping component is connected with a plurality of accessoryingredient storage devices which store various liquid accessoryingredients, and pumps out an appropriate amount of the correspondingaccessory ingredient and adds it into the wok via the accessoryingredient conduction pipe under the control of the ingredient addingsub-controlling system.

Preferably, the wok rotating device comprises a rotating sub-controllingsystem, a motor and a rotating shaft, wherein the rotatingsub-controlling system is connected with the electrical control deviceso as to receive rotating control commands, the rotating shaft isfixedly connected with the wok, the motor drives the rotating shaft torotate under the control of the rotating sub-controlling system andthereby drives the wok to rotate.

Preferably, the wok working position controlling device comprises aworking position sub-controlling system, a motor, a main shaft and a wokframe, wherein the wok frame is used for securing the wok and is hold inthe housing by the main shaft, the working position sub-controllingsystem is connected with the electrical control device, so as to receivevarious control commands, drive the main shaft to rotate on the basis ofvarious control commands and thereby drive the wok to rotate torespective working positions to perform respective operations.

Preferably, the automatic wok washing device comprises a wok washingsub-controlling system, a water infusing component, a wok brushstretching and retracting component, a rotatable wok washing componentand a waste water draining component, wherein the wok washingsub-controlling system is connected with the electrical control deviceso as to receive wok washing control command and control the waterinfusing component, the wok brush stretching and retracting component,the rotatable wok washing component and the waste water drainingcomponent to perform wok washing operation. Meanwhile, the wok rotatingdevice controls the wok to rotate and performs wok washing operationwhen receiving wok washing control command. After the wok is washed, thewok brush will be retracted back.

Preferably, the dish discharging device comprises a dish dischargingsub-controlling system, a tray, a tray conveying component and a dishdischarging component, wherein the tray is used for carrying the dishplate, the dish discharging sub-controlling system is connected with theelectrical control device, so as to receive dish discharging controlcommand and control the tray conveying component to convey the traytogether with the dish plate to a best position for dish discharging ordish taking and the dish discharging component to work, therebyrealizing the dish discharging operation.

Preferably, it comprises a human-computer interface connected with theelectrical control device and/or comprises a network interface. Usersmay directly input recipe commands via the human-computer interface, ordirectly call the recipe program stored in the cooking machine, and/orinput recipe programs via the network interface.

The programmable controlled intelligent cooking machine provided by thepresent invention has advantages as follows:

1. Maximum compatibility. It is capable of running the recipe programprogrammed with all complex general recipe commands (e.g. vmmda1.0),interpreting and executing the recipe program according to the commandsequence, so as to perform various cooking operations and cook disheswith various flavors according to various recipe programs.

2. Minimum manual intervention (Except that the standard packagedingredient is manually placed into the ingredient chamber opening of thecooking machine, all the rest operations are performed by the machine).It may realize functions such as automatically feeding major ingredient,automatically adding accessory ingredient, automatically dischargingdish, automatically washing wok and so on, whereby realizingfull-automatic cooking.

3. It may accept the recipe program programmed with general recipecommands in many ways. Users may program recipe programs by themselves,or directly call a large number of recipe programs of Chinese dishesstored in the machine, or input external recipe programs via thenetwork.

4. Generality. It supports general recipe commands so the recipe programmay be shared; it supports four-compartment standard package so themajor ingredient of Chinese dish may be standardizedproduced/stocked/transported/sold; it supports standard liquid packagefor accessory ingredients (condiment and seasoning) so the accessoryingredients may be standardized produced/stocked/transported/sold.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a system composition block diagram of a programmablecontrolled intelligent cooking machine according to an embodiment of thepresent invention;

FIG. 2 is a structure diagram of a programmable controlled intelligentcooking machine according to an embodiment of the present invention;

FIG. 3 is another structure diagram of the programmable controlledintelligent cooking machine shown in FIG. 2;

FIG. 4 is a composition block diagram of a wok working positioncontrolling device of the programmable controlled intelligent cookingmachine shown in FIG. 1;

FIG. 5 is a composition block diagram of a wok rotating device of theprogrammable controlled intelligent cooking machine shown in FIG. 1;

FIG. 6 is a composition block diagram of an electromagnetic heatingcontrolling device of the programmable controlled intelligent cookingmachine shown in FIG. 1;

FIG. 7 is a composition block diagram of an automatic ingredient feedingdevice of the programmable controlled intelligent cooking machine shownin FIG. 1;

FIG. 8 is a structural schematic drawing of a major ingredient standardpackage with four compartments employed by a programmable controlledintelligent cooking machine according to an embodiment of the presentinvention;

FIG. 9 is a composition block diagram of a wok lid controlling device ofthe programmable controlled intelligent cooking machine shown in FIG. 1;

FIG. 10 is a composition block diagram of an automatic accessoryingredient adding device of the programmable controlled intelligentcooking machine shown in FIG. 1;

FIG. 11 is a composition block diagram of an automatic dish dischargingdevice of the programmable controlled intelligent cooking machine shownin FIG. 1;

FIG. 12 is a composition block diagram of an automatic wok washingdevice of the programmable controlled intelligent cooking machine shownin FIG. 1;

FIG. 13 is an exemplary graph of a multimedia man-machine interface of aprogrammable controlled intelligent cooking machine according to anembodiment of the present invention;

FIGS. 14-19 show the working process of a programmable controlledintelligent cooking machine according to an embodiment of the presentinvention.

DETAILED DESCRIPTION OF ILLUSTRATED EMBODIMENTS

The technical solutions of the embodiments according to the presentinvention are clearly and fully described as below with reference to theaccompanying drawings in the embodiments of the present invention.Apparently, the embodiments to be described are merely a part ratherthan all of the embodiments of the present invention. All otherembodiments obtained by persons with ordinary skills in the art based onthe embodiments of the present invention without creative efforts shallfall within the protection scope of the present invention.

Referring to FIG. 1, it is a system composition block diagram of aprogrammable controlled intelligent cooking machine according to anembodiment of the present invention. The entire system comprises: arotatable stir-frying core device 1 consisting of a wok andelectromagnetic heating coils, a wok rotating device 2, a wok workingposition controlling device 3, a wok lid controlling device 4, anelectromagnetic heating controlling device 5, an automatic ingredientfeeding device 6, an automatic accessory ingredient adding device 7, anautomatic dish discharging device 8, an automatic wok washing device 9and an electrical control device 10, wherein the electrical controldevice 10 is used for receiving a preset recipe program and sending anaccording control command on the basis of the recipe program, the wokrotating device 2, the wok working position controlling device 3, thewok lid controlling device 4, the electromagnetic heating controllingdevice 5, the automatic ingredient feeding device 6, the automaticaccessory ingredient adding device 7, the automatic dish dischargingdevice 8 and the automatic wok washing device 9 are connected to theelectrical control device 10 respectively, and perform respectiveoperations according to the received control commands, thereby realizingfull-automatic cooking. In the present embodiment, the system alsocomprises a multimedia man-machine interface 101 connected with theelectrical control device and a network interface 102. Users may programrecipe programs by themselves by the multimedia man-machine interface101, or directly call a large number of recipe programs of Chinesedishes stored in the machine, or input external general recipe programsvia the network interface 102.

Referring to FIG. 2 and FIG. 3, the structure of the programmablecontrolled intelligent cooking machine according to the presentinvention is described in detail as below. Thereinto, it can beunderstood that FIG. 2 and FIG. 3 are structure diagrams of sameembodiment, only different in viewing angle. The programmable controlledintelligent cooking machine comprises a housing 100, a wok 11accommodated inside of the housing 100, electromagnetic heating coils12, a wok rotating device 2, a wok working position controlling device3, a wok lid 41 and a wok lid controlling device 4, an electromagneticheating controlling device 5, an automatic ingredient feeding device 6,an automatic accessory ingredient adding device 7, an automatic dishdischarging device 8, an automatic wok washing device 9 and anelectrical control device 10.

Thereinto, the wok 11 is positioned centrally in the interior of thehousing 100. The cylinder body of the wok 11 comprises a hollowcylinder-shaped upper part and a hemisphere-shaped lower part.Furthermore, a plurality of stirring pieces (not shown in figures) arearranged on the internal wall of the lower part of the wok 11 so as toachieve stir frying effects like tossing the pan when the wok 11 rotatesand cooks. The wok 11 is a stainless iron wok with the entire internalwall coated with a non-stick material layer having excellent heatresistance. The electromagnetic heating coils 12 wind around theexternal wall of the lower part of the wok 11 into a hemisphere shapeand heat the wok 11 under the control of the electromagnetic heatingcontrolling device 5. Due to the electromagnetic heating, athree-dimensional surround hemisphere heating temperature field whichheats quickly and has high thermal efficiency is formed in the wok 11.The formed heating temperature field has a similar effect as traditionalblowing-type cook-stoves heating wok, it greatly meets the requirementof heating control in Chinese culinary art and is energy-efficient.

Referring to FIG. 4, the wok working position controlling device 3comprises a working position sub-controlling system 301, a positioncontrolling detector 302, a motor 303, a main shaft 304 and a wok frame305 which is used for securing the wok 11 and is hold in the housing 100by the main shaft 304, wherein the main shaft 304 is connected at oneend to the motor 303 and thus rotates under the control of the motor303, thereby driving the wok frame 305 and the wok 11 to rotate andrealizing 360-degree rotation. The motor 303 is electrically connectedwith the working position sub-controlling system 301 and works under thecontrol of the working position sub-controlling system 301. The positioncontrolling detector 302 is used for detecting the rotate angle of thewok frame 305 and the wok 11 so as to make sure they do rotate to theprecise working position, and for sending the detected data to theworking position sub-controlling system 301. The working positionsub-controlling system 301 is connected with the electrical controldevice 10 to receive various control commands and send control commandsto the motor 303 on the basis of the various control commands and thedetected data received from the position controlling detector 302, so asto drive the main shaft 304 to rotate and make the wok frame 305 and thewok 11 rotate to corresponding working positions to performcorresponding operations. All operations, except for dish dischargingoperation, will be performed only after the wok 11 has rotated tocorresponding working positions.

In the present embodiment, five working positions are provided, i.e. amajor ingredient feeding working position, an accessory ingredientadding (cooking) working position, a dish discharging working position,a wok washing working position and a waste water draining workingposition. The wok frame 305 is capable of driving the wok 11 to rotateto each working position, and making the wok 11 face towards eachcorresponding device so as to perform corresponding automatic cookingoperations such as ingredient feeding, cooking (accessory ingredientadding), dish discharging, wok washing, waste water draining, etc. Forexample, when the working position sub-controlling system 301 receivesan accessory ingredient adding command or a rotating control command,the wok 11 is rotated to an accessory ingredient adding (cooking)working position (which is preferably a position with a 45-degree angleto the original position) in a clockwise direction, so as to make thewok face towards the wok lid 41 and the wok lid controlling device 4;when the working position sub-controlling system 301 receives a majoringredient feeding control command, the wok 11 is rotated to aningredient feeding working position (which is vertical position, namely,the original position), so as to make the wok face towards the automaticingredient feeding device 6; when the working position sub-controllingsystem 301 receives a dish discharging control command, the wok 11 isrotated to a dish discharging working position (which is preferably aposition with a 135-degree angle to the original position) in aclockwise direction, so as to make the wok face towards the automaticdish discharging device 8; when the working position sub-controllingsystem 301 receives a wok washing control command, the wok 11 is rotatedto a wok washing working position (which is preferably a position with a45-degree angle to the original position) in an anti-clockwisedirection, so as to make the wok face towards the automatic wok washingdevice 9, and when receiving a waste water draining control commandafter the wok washing is finished, the wok is further rotated to a wastewater draining working position (which is preferably a position with a135-degree angle to the original position) in an anti-clockwisedirection, so as to make the wok face towards a reception basin.

Referring to FIG. 5, the wok rotating device 2 comprises a rotatingsub-controlling system 201, a motor 202 and a rotating shaft 203,wherein the rotating shaft 203 is fixedly connected at one end to thelower part of the wok 11 and is connected at another end to the motor202, the rotating shaft 203 is rotated under the control of the motor202, thereby driving the wok 11 to rotate and realizing 360-degreerotation. The motor 203 is electrically connected with the rotatingsub-controlling system 20 and works under the control of the rotatingsub-controlling system 20. The rotating sub-controlling system 201 isconnected to the electrical control device 10 so as to receive rotatingcontrol commands and send control signals on the basis of the controlcommands, thereby making the wok 11 perform various rotation motions andcontrolling the rotation direction and speed of the wok 11. Thestir-frying function of the present embodiment realizes various stirfrying effects in the way of rotation motions combination control, whichis similar to a roller rotating and stiffing. Various effects likesaute-stirring and stir-frying can be realized by combining variousrotation modes including high-speed rotation, low-speed rotation,clockwise rotation and anti-clockwise rotation. By cooperatively usingstirring pieces arranged in the wok 11 and controlling the rotatingangle of the wok 11, the stir frying effect like tossing the pan can berealized.

Referring to FIG. 6, the electromagnetic heating controlling device 5comprises an electromagnetic sub-controlling system 501, a woktemperature detector 502 and a high frequency driving source 503, thewok temperature detector 502 is used for detecting the temperature ofthe wok body and sending the detected data to the electromagneticsub-controlling system 501. The high frequency driving source 503 isconnected to the electromagnetic heating coils 12 so as to generatecurrent for the electromagnetic heating coils 12. The electromagneticsub-controlling system 501 is connected to the electrical control device11 so as to receive turn-on, turn-off and heating control commands,control it to open, close, turn-on or turn down the high frequencydriving source 503 on the basis of the detected data of the woktemperature detector 502, so that heating time and current intensity ofthe electromagnetic heating coils 12 can be controlled and thus heatingtime and heating temperature for the wok 11 can be controlled. In thepresent embodiment, the function of precise heating control required byChinese culinary art is realized by controlling heating temperature andheating time. The heating temperature is controlled by adjusting thecurrent intensity of the electromagnetic heating coils 12 and making thewok temperature stable in the range of controlling value. Since theelectromagnetic heating does not have time-lag, heating controlperformed in this way is much more sensitive than that performed inother ways such as traditional open fires and resistance generating andconducting. When further cooperatively employing precise control ofheating time, the function of heating control required by Chineseculinary art can be fully realized. It can be understood that, theelectromagnetic heating controlling device 5 of the present embodimentmay be fixedly mounted on the wok frame 305.

Referring to FIG. 7, the automatic ingredient feeding device 6 isarranged right above the wok 11, the housing 100 is arranged on the sidewall with an ingredient chamber opening corresponding to the automaticingredient feeding device 6, so as to enable the user to feed the majoringredient into the automatic ingredient feeding device 6. In thepresent embodiment, the ingredients are stocked in a four-compartmentstandard package box 61 (referring to FIG. 8) and particularly arestocked respectively in individual compartments (compartment A,compartment B, compartment C, compartment D) of one package, whereinvarious major ingredients and accessory ingredients are selected forvarious dishes. Furthermore, an electronic tag 611 (two-dimension codes,IC card, RFID, etc.) is attached to the bottom of each standard packagebox 61. The recommended recipe programs of the standard package, orvarious information, such as production, storage, delivery, sellinginformation of major ingredients and so on, may be obtained by readingand writing (for example reading by means of the multimedia man-machineinterface 11) the information of the electronic tag for common automaticcooking machines to use. According to the control program of theautomatic cooking machine, the automatic ingredient feeding device 6provides major ingredients and accessory ingredients stocked inrespective compartments at a predetermined time in a predeterminedsequence, wherein the combinations of feeding sequence for each Chinesedish may have up to 24 changes.

The Chinese dish recipe of major ingredients and accessory ingredients,which is a part of Chinese culinary art, usually consists of one tothree major ingredients and several accessory ingredients. For example,the dish “fried sliced cabbage” uses cabbage as a major ingredient, anduses chili, garlic and so on as accessory ingredients. The dish “SlicedMeat with Dry Tofu and Green Pepper” uses shredded green pepper,shredded meat, and dry tofu as the major ingredients, and uses garlicand red pepper as accessory ingredients. The major ingredients andaccessory ingredients of a Chinese dish are respectively placed inrespective compartments of one package, depending on whether these majoringredients and accessory ingredients can be put into the wok at thesame time. The major ingredients and accessory ingredients which can beput into the wok at the same time may be stocked in one compartment. Ifthe major ingredients and accessory ingredients of a certain Chinesedish are placed in a package with four standard compartments, it meansthe major ingredients and accessory ingredients can be put into the wokin four groups at four different stages at most, thus it has 24 feedingsequence combinations at most (abcd, abdc, acbd, acdb, adbc, adcb, bacd,badc, bdac, bdca, bcad, bcda, cabd, cadb, cbad, cbda, cdab, cdba, dabc,dacb, dbac, dbca, dcab, dcba). Generally, it is enough to meet therequirement of Chinese culinary art for most dishes. Moreover, astandard package with more compartments, such as six compartments oreight compartments, may meet the requirement of more complicated cookingtechnique and meet the feeding requirement of high grade commercialautomated cooking machines.

The key point for realizing industrialization of the automated Chinesedish cooking machines is that, the major ingredients and accessoryingredients of a certain Chinese dish are selected according to variouscooking requirements, stocked in a standard package and particularlystocked respectively in individual compartments of one package. Thus, acomplete industrial chain, including the specialized production ofagricultural products in the upstream, pre-treating (cleaning andcutting etc.) on the spot, packaging at the consumption place, delivery,and consumption of the automated cooking machine, can thus beestablished. It brings a new life style, which is different from thetraditional style buying primary agricultural products in markets andproducing large quantity of living rubbish. On the other hand, due tothe use of standard package, the production of the agricultural productsmay realize intensification, large-scale, standardized andindustrialization production, which provides a back tracking mechanismfor food safety guarantee. In addition, Internet of Things technology,such as two-dimension codes, IC card, RFID and so on, may be applied tothe standard package of major ingredients and accessory ingredients andpreset in the package, so as to facilitate the identification ofrecommended recipe program and other agricultural products informationfor general automated cooking machines.

Referring to FIG. 7, the automatic ingredient feeding device 6 comprisesan ingredient feeding sub-controlling system 601, an ingredientreceiving component 602, a releasing component 603 and an ingredientfeeding guide groove 604. In the present embodiment, the ingredientreceiving component 602 is an openable four-compartmentingredient-dropping chamber, which is arranged corresponding to thefour-compartment standard package box 61 with openings face to face andone to one correspondence. When the automatic ingredient feeding device6 is rotated 180 degrees overall by a turnover mechanism, the majoringredients and accessory ingredients originally stocked in the standardpackage box fall into the ingredient-dropping chamber under gravity. Thereleasing component 603 is used for actuating the bottom door of thedouble-door openable four-compartment ingredient-dropping chamber. Whendouble-door of the chamber are opened, the major ingredients andaccessory ingredients fall into the wok 11 right below it along thefeeding guide groove 604 under gravity. The ingredient receivingcomponent 602 and the releasing component 603 are connected with thefeeding sub-controlling system 601 and are controlled by it. The feedingsub-controlling system 601 is connected with the electrical controldevice 10, so as to receive major ingredient feeding control commandsand control the releasing of the major ingredients and accessoryingredients stocked in respective compartments to the wok 11 at apredetermined time in a predetermined sequence on the basis of thecontrol commands.

Referring to FIG. 9, the wok lid controlling device 4 comprises a woklid sub-controlling system 401 and a wok lid push-pull component 402fixedly connected with the wok lid 41, wherein the wok lidsub-controlling system 401 is connected with the electrical controldevice 10, so as to receive the control commands of opening or closingthe wok lid and control the wok lid push-pull component 402 to pull orpush the wok lid, thereby realizing the opening and closing of the woklid 41. In the present embodiment, the wok lid controlling device 4 isarranged inside of the housing 100 and particularly on the side wallright of the wok 11, with the wok lid at a position having a 45-55degrees angle to the wok 11.

Referring to FIG. 10, the automatic accessory ingredient adding device 7comprises an ingredient adding sub-controlling system 701, an accessoryingredient pumping component 702 and an accessory ingredient conductionpipe 703. In the present embodiment, the wok lid 41 is provided with anopening for connecting the accessory ingredient conduction pipe 703. Theingredient adding sub-controlling system 701 is connected with theelectrical control device 10 so as to receive the control commands ofadding accessory ingredients. The accessory ingredient pumping component702 is connected with a plurality of accessory ingredient storagedevices (standard liquid package for accessory ingredients) which storevarious liquid accessory ingredients. An appropriate amount of thecorresponding accessory ingredient is pumped out and added into the wok11 via the accessory ingredient conduction pipe 703 under the control ofthe ingredient adding sub-controlling system 701. The program controlreleasing of the accessory ingredients (seasonings) is realized bystandard liquid package and the pumping device. All accessoryingredients (seasonings) are packaged by liquid package, prepared ascommon ingredients (cooking oil, liquid salt, soy sauce, vinegar,cooking wine, liquid sugar, spicy sauce, soup stock, sesame oil, etc.),and stocked in individual containers. The automatic accessory ingredientadding device 7 pumps and releases a predetermined amount of accessoryingredients at a predetermined time in a predetermined sequenceaccording to the preset recipe program. In the present embodiment, theautomatic accessory ingredient adding device 7 is arranged inside of thehousing 100 and particularly on the side wall back of the wok 11.

Referring to FIG. 11, the automatic dish discharging device 8 comprisesa dish discharging sub-controlling system 801, a tray 802, a trayconveying component 803 and a dish discharging component 804. In thepresent embodiment, the automatic dish discharging device 8 is arrangedbelow the wok 11 and on the right of it. The housing 100 is providedwith a dish plate opening on the right wall at the position opposite tothe automatic dish discharging device 8, so as to enable the user to putthe dish plate on the tray 801. The tray 801 is used for carrying thedish plate, and the tray conveying component 803 is used for conveyingthe tray 802 to a best position for dish discharging (right below andclose to the wok 11) or a best position for dish taking (dish plateopening). The dish discharging component 804 is used for discharging thefried dish in the wok 11 into the dish plate. In the present embodiment,the dish discharging is realized by the wok working position controllingdevice 3, without the need of extra dish discharging component 804. Thedish discharging sub-controlling system 801 is connected with theelectrical control device 10 so as to receive dish discharging controlcommand and control the tray conveying component and the dishdischarging component to perform dish discharging operation.

Referring to FIG. 12, the automatic wok washing device 9 comprises a wokwashing sub-controlling system 901, a water infusing component 902, acleaning solution infusing component 903, a wok brush stretching andretracting component 904, a rotatable wok washing component 905 and awaste water draining component 906. The wok washing sub-controllingsystem 901 is connected with the electrical control device 10 so as toreceive wok washing control command and control the water infusingcomponent 902, the cleaning solution infusing component 903, the wokbrush stretching and retracting component 904, the rotatable wok washingcomponent 905 and the waste water draining component 906 to perform wokwashing operation. In the present embodiment, the wok washing and thewaste water draining are realized by the rotating device 2 and the wokworking position controlling device 3, without the need of extrarotatable wok washing component 905 or waste water draining component906. In the present embodiment, the wok is actively washed by infusingwater and cleaning solution into the wok and rotating the wok brush andthe wok cooperatively. Since the wok 11 is coated with a non-stickmaterial layer on the internal wall, it provides best cleaning effect.In addition, in the present embodiment, the automatic wok washing device9 is arranged inside of the housing 100 and particularly on the sidewall left of the wok 11, and the reception basin is arranged below thewok 11 and on the left of it.

In the present embodiment, the multimedia man-machine interface 11 isarranged on a certain external wall of the housing 100. FIG. 101 showsan embodiment of the multimedia man-machine interface 101, comprisingfive regions: relevant parameter viewing area of recipe programconformance statement, listing and viewing area of recipe programexecutable command sequence, management operating area of recipeprogram, listing and viewing area of recipe program and managementfunctional area of recipe program such as outputting XML document and soon. The multimedia man-machine interface 101 interacts with the user bymultimedia, such as image, text, video and audio, and displays thestatus, running process, operating tips, etc. of the automated cookingmachines. Users may program recipe programs by themselves by themultimedia man-machine interface 101, or directly call a large number ofrecipe programs of Chinese dishes stored in the machine, or inputexternal general recipe programs via the network interface 102.

The intelligent cooking machine of the present invention is ageneral-purpose programmable controlled Chinese dish cooking machine,which is particularly capable of automatically completing Chinese dishcooking process according to the recipe program programmed on the basisof vmmda1.0 general recipe commands.

That is, the program specification of the accepted recipe programsupports vmmda1.0 general recipe commands of automatic Chinese dishcooking, which includes nine commands: F1 ingredient feeding command, F2heat-adjusting command, F3 stop-heating command, F4 rotating command, F5time delay command, F6 seasoning-feeding command, F7 open-lid command,F8 dish discharging command, F9 pause command. The recipe programprogrammed on the basis of the program specification runs by pipelinedsingle task. The automated cooking machine of the present inventioninterprets and executes the recipe program according to the commandsequence.

The general recipe program specification can be written in XML ‘1.0’ andencoded in gb2312 for better data exchange and information sharingacross platforms. So besides the programmable controlled intelligentcooking machine of the present invention, the recipe program can also beapplied to a virtual cooking machine, cloud services, Internet of Thingsterminal, and so on.

The recipe program includes two parts, conformance statement andexecutable command sequence.

The conformance statement mainly includes: recipe program version,recipe number, recipe name, creator, creation date, major ingredientpackaging version and major ingredient name.

The executable command sequence consists of vmmda1.0 general recipecommands of automatic Chinese dish cooking. As illustrated in Table 1below, the basic syntax is as follows: index command; comment (may beomitted). Each line permits one command only. Generally, the wholeexecutable command sequence should not be over 5000 lines.

TABLE 1 Index Command Comment 1 F2( ),1; Heat-adjusting command,parameter: 1(low)-10(high) 2 F5( ),30; Time-delay command, parameter:seconds 3 F6A( ),70; Seasoning A(oil) feeding command, parameter: mL

The programmable controlled intelligent cooking machine of the presentinvention executes each command according to the index sequence. Theindex can be omitted, and then the programmable controlled intelligentcooking machine executes each command from the top to the bottom. In thefollowing example, the command sequences in Table 2 (a), Table 2 (b) andTable 2 (c) have the same function of executable command sequence.

TABLE 2 (a) 1 F2( ),1; Heat-adjusting command, parameter:1(low)-10(high) 2 F5( ),30; Time-delay command, parameter: seconds 3F6A( ),70; Seasoning A(oil) feeding command, parameter: mL

TABLE 2 (b) F2( ), 1 F5( ), 30 F6A( ), 70

TABLE 2 (c) 2 F5( ), 30 1 F2( ), 1 3 F6A( ), 70

All text editors may be used for writing the general recipe program. Therecipe program may be written in XML ‘1.0’ and encoded in gb2312. Theroot element is “cooking_machine_recipe”, the sub-elements include“ingredient_package” and “recipe_command”.

The root element “cooking_machine_recipe” has attributes as follows:recipe program version, recipe number, recipe name, creator and creationdate. For example: <cooking_machine_recipe version=‘vmmda 1.0’recipe_number=‘xjb0001’ recipe_name=‘fried sliced cabbage’ creator=‘xjb’date=‘03/07/12’>

The sub-element “ingredient package” is a null element with attributesas follows: version, compartment-A ingredient, compartment-B ingredient,compartment-C ingredient, compartment-D ingredient. For example:<ingredient_package version=‘vmmda 1.0’compartment-A_ingredient=‘cabbage’ compartment-B_ingredient=‘cabbage’compartment-C_ingredient=‘accessory ingredient’compartment-D_ingredient=‘’></ingredient_package>

The sub-element “recipe_command” has attributes as follows: step,command code, parameter. The value of the sub-element “recipe command”is the comment. For example:

<recipe_command step=‘2’ command_code=‘F2(3)’ parameter=‘3’>heat-adjusting command, parameter 1 (low)-10 (high) </recipe_command>

The complete format of the recipe program is shown as follows:

<?xml version=‘1.0’ encoding=‘gb2312’?>

<cooking_machine_recipe version=‘vmmda 1.0’ recipe_number=‘xjb0001’recipe_name=‘fried sliced cabbage’ creator=‘xjb’ date=‘03/07/12’>

<ingredient_package version=‘vmmda 1.0’compartment_A_ingredient=‘cabbage’ compartment_B_ingredient=‘cabbage’compartment_C_ingredient=‘accessory ingredient’compartment_D_ingredient=‘’></ingredient_package>

<recipe_command step=‘1’ command_code=‘F4(3)’ parameter=‘3’>rotatingcommand, parameter 1 (slow)-8 (fast) </recipe_command>

<recipe_command step=‘2’ command_code=‘F2(3)’parameter=‘3’>heat-adjusting command, parameter 1(low)-10 (high)</recipe_command>

</cooking_machine_recipe>

As an example, a recipe program for cooking fried sliced cabbage isgiven as below.

<?xml version=‘1.0’ encoding=‘gb2312’?>

<cooking_machine_recipe version=‘vmmda 1.0’ recipe_number=‘xjb0001’recipe_name=‘fried sliced cabbage’ estimated_time=‘437’ creator=‘xjb’date=‘03/07/12’>

<ingredient_package version=‘vmmda 1.0’compartment_A_ingredient=‘cabbage’ compartment_B_ingredient=‘cabbage’compartment_C_ingredient=‘cabbage’ compartment_D_ingredient=‘accessoryingredient (garlics, etc.)’></ingredient_package>

<recipe_command step=‘1’ command_code=‘F4( )’ parameter=‘3’> rotatingcommand, parameter 1(slow)-8(fast)</recipe_command>

<recipe_command step=‘2’ command_code=‘F2( )’ parameter=‘1’>heat-adjusting command, parameter 1 (low)-10 (high)</recipe_command>

<recipe_command step=‘3’ command_code=‘F6A( )’ parameter=‘40’>seasoning-A(oil)-feeding command, parameter is mL </recipe_command>

<recipe_command step=‘4’ command_code=‘F3’ parameter=‘0’> stop-heatingcommand, no parameter</recipe_command>

<recipe_command step=‘5’ command_code=‘F1D’parameter=‘0’>ingredient-feeding command, put ingredient D into the wok,no parameter</recipe_command>

<recipe_command step=‘6’ command_code=‘F4( )’ parameter=‘3’> rotatingcommand, parameter 1 (slow)-8 (fast)</recipe_command>

<recipe_command step=‘7’ command_code=‘F2( )’ parameter=‘2’>heat-adjusting command, parameter 1 (low) -10 (high)</recipe_command>

<recipe_command step=‘8’ command_code=‘F5( )’ parameter=‘20’> time-delaycommand, parameter is the seconds</recipe_command>

<recipe_command step=‘9’ command_code=‘F3’ parameter=‘3’> stop-heatingcommand, no parameter</recipe_command>

<recipe_command step=‘10’ command_code=‘F1A’ parameter=‘0’>ingredient-feeding command, put ingredient A into the wok, noparameter</recipe_command>

<recipe_command step=‘11’ command_code=‘F1B’ parameter=‘0’>ingredient-feeding command, put ingredient B into the wok, noparameter</recipe_command>

<recipe_command step=‘12’ command_code=‘F1C’ parameter=‘0’>ingredient-feeding command, put ingredient C into the wok, noparameter</recipe_command>

<recipe_command step=‘13’ command_code=‘F4( )’ parameter=‘5’> rotatingcommand, parameter 1 (slow)-8 (fast)</recipe_command>

<recipe_command step=‘14’ command_code=‘F2( )’ parameter=‘2’>heat-adjusting command, parameter 1 (low)-10 (high)</recipe_command>

<recipe_command step=‘15’ command_code=‘F5( )’ parameter=‘100’>time-delay command, parameter is the seconds</recipe_command>

<recipe_command step=‘16’ command_code=‘F6G( )’ parameter=‘50’>seasoning-C(soy sauce)_feeding command, parameter is mL</recipe_command>

<recipe_command step=‘17’ command_code=‘F6D( )’ parameter=‘20’>seasoning-D(vinegar)_feeding command, parameter is mL </recipe_command>

<recipe_command step=‘18’ command_code=‘ F6G( )’ parameter=‘10’>seasoning-G(sesame oil)_feeding command, parameter is mL</recipe_command>

<recipe_command step=‘19’ command_code=‘F5( )’ parameter=‘100’>time-delay command, parameter is the seconds</recipe_command>

<recipe_command step=‘20’ command_code=‘F3’ parameter=‘0’> stop-heatingcommand, no parameter</recipe_command>

<recipe_command step=‘21’ command_code=‘F5( )’parameter=‘100’>time-delay command, parameter is theseconds</recipe_command>

<recipe_command step=‘22’ command_code=‘F9’ parameter=‘0’> halt command,no parameter</recipe_command>

</cooking_machine_recipe>

The recipe program programmed with vmmda 1.0 general recipe command hasfunction features as follows:

(1) It realizes precise heating control required by Chinese culinaryart;

(2) It realizes precise control of ingredient (major ingredients andaccessory ingredients, seasoning, etc.) feeding required by Chineseculinary art, feeding major ingredients and accessory ingredients at apredetermined time in a predetermined sequence, and feeding apredetermined amount of seasoning at a predetermined time in apredetermined sequence;

(3) It realizes the control of rotatably stir-frying ingredientsrequired by Chinese culinary art.

All automated cooking machines supporting vmmda 1.0 general recipecommand may realize various cooking operations according to the recipeprogram, thereby realizing full-automatic cooking.

In addition, it is possible to create a recipe program library (recipeprogram database) for multiple Chinese culinary arts by vmmda 1.0general recipe command. Not only standard recipe programs for variousChinese dishes, but also recipe programs for one Chinese dish withvarious flavors, may be programmed.

It can be understood that, except for automatically processing Chinesedish cooking according to the recipe program programmed by the vmmda 1.0general recipe command, the programmable controlled intelligent cookingmachine of the present invention also accepts the recipe programsprogrammed by other general recipe commands.

It can be understood that, when editing recipe programs, the user onlyneeds to consider the cooking process (ends till the dish is finished).Subsequent operations, such as dish discharging, wok washing and so on,do not belong to cooking process, so it is not necessary to editcorresponding commands. Therefore, the programmable controlledintelligent cooking machine of the present invention may set unifieddish discharging command (accordingly provides a dish dischargingbutton) and wok washing command (accordingly provides a wok washingbutton), so as to automatically perform a series of processes todischarge the dish and a series of processes to wash the wok.

Referring to FIG. 14-FIG. 19, the Chinese dish cooking process, which isautomatically performed by the programmable controlled intelligentcooking machine of the present invention according to the recipe programprogrammed with vmmda 1.0 general recipe command, is illustrated indetail as below (described in conjunction with the embodiment of theabove recipe program for fried sliced cabbage).

The user turns on the programmable controlled intelligent cookingmachine of the present invention, and accordingly inputs or selects thecorresponding recipe program for fried sliced cabbage.

The user accordingly places the four-compartment standard packagedingredient of sliced cabbage into the automatic ingredient feedingdevice 6, and opens the programmable controlled intelligent cookingmachine to execute recipe program.

At first, when the electromagnetic heating controlling device receivesrotating control command F4, the wok 11 is rotated to stir-fryingworking position, and the wok lid controlling device 4 pushes the woklid 41 to close the wok 11. Then, the wok rotating device 2correspondingly rotates the wok 11 according to rotating control commandF4 (step 1), and then heats the wok 11 according to heating controlcommand F2 (step 2). When the wok working position controlling device 3receives accessory ingredient adding control command F6, the wok 11 isrotated to accessory ingredient adding working position (stir-fryingworking position). Then, the wok lid controlling device 4 pushes the woklid 41 to close the wok 11. Meanwhile, according to accessory ingredientadding control command F6, the automatic accessory ingredient addingdevice pumps an appropriate amount of corresponding accessory ingredient(oil) into the wok 11 and heats it (step 3). At the moment, theprogrammable controlled intelligent cooking machine is in a workingstate as shown in FIG. 14, wherein an arrow A shows the flow directionof the accessory ingredient (oil).

After that, when receiving Turn-off control command F3, theelectromagnetic heating controlling device stops heating the wok 11(step 4).

Then, when the wok working position controlling device 3 receives majoringredient feeding control command F1, the wok lid controlling device 4pulls back the wok lid 41 to open the wok 11 at first, and then the wok11 is rotated to major ingredient feeding working position, after that,the automatic ingredient feeding device 6 places the major ingredientstocked in the compartment D into the wok 11 according to majoringredient feeding control command F1 (step 5). At the moment, theprogrammable controlled intelligent cooking machine is in a workingstate as shown in FIG. 15.

After that, when receiving rotating control command F4, the wok workingposition controlling device 3 rotates the wok 11 to the stir-fryingworking position, and the wok lid controlling device 4 pushes the woklid 41 to close the wok 11. Then, the wok rotating device 2correspondingly rotates the wok 11 according to the rotating controlcommand F4 (step 6). Meanwhile, when receiving heating control commandF2, the electromagnetic heating controlling device heats the wok (step7) and control the heating time according to time delay command F5 (step8). At the moment, the programmable controlled intelligent cookingmachine is in a working state as shown in FIG. 16, wherein an arrow Bshows the rotating direction of the wok 11. When receiving Turn-offcontrol command F3, the electromagnetic heating controlling device stopsheating the wok 11 (step 9).

The steps after step 9 are repeated steps and need not be repeated here.

When executing F9 pause command at step 22, the electromagnetic heatingcontrolling device receives turn-off control command F3 at first andstops heating the wok 11, the wok lid controlling device 4 pulls backthe wok lid 41 to open the wok 11, the wok rotating device 2 rotates thewok to the ingredient feeding working position and stops rotating thewok 11. By this time, the cooking process is finished.

At the moment, the user may put a dish plate on the tray of theautomatic dish discharging device 8 and press the dish dischargingbutton (i.e. send a dish discharging control command). Then, theautomatic dish discharging device 8 conveys the dish plate to a bestposition for dish discharging according to the dish discharging controlcommand. After that, the wok working position controlling device rotatesthe wok 11 to dish discharging working position according to the dishdischarging control command, so as to pour the fried sliced cabbage ontothe dish plate. At the moment, the programmable controlled intelligentcooking machine is in a working state as shown in FIG. 17. After that,the automatic dish discharging device 8 conveys the dish plate to a bestposition for dish taking (dish plate opening) so as to enable the userto take.

After that, the user may press the wok washing button (i.e. send a wokwashing control command), then the wok working position controllingdevice 3 rotates the wok 11 to a wok washing working position accordingto the wok washing control command. Then, the automatic wok washingdevice 9 infuses water, cleaning solution into the wok 11 and stretchesout the wok brush, and rotates the wok 11 by the wok rotating device 2so as to cooperate with the wok brush to wash the internal wall of thewok. At the moment, the programmable controlled intelligent cookingmachine is in a working state as shown in FIG. 18, wherein an arrow Cshows the rotating direction of the wok 11.

After the wok is washed, the automatic wok washing device 9 retracts thewok brush. Meanwhile, the wok working position controlling device 3rotates the wok 11 to water draining working position, so as to pour thewaste water into the reception basin. At the moment, the programmablecontrolled intelligent cooking machine is in a working state as shown inFIG. 19.

It should be noted that, the above recipe program does not employ F7open-lid command. Since the closing/opening of the wok lid is relevantwith other commands in practical applications and do not needindependent command for controlling, when the electrical control devicereceives corresponding commands, it may perform close-lid/open-lidoperation at the same time according to the commands. The operationsexecuted by respective command comprise:

F4 rotating command: adjust the wok to stir-frying workingposition/close the wok lid/rotate the wok.

F6 accessory ingredient command: only when the wok is in stir-fryingworking position/add accessory ingredient.

F1 ingredient feeding command: open the wok lid/adjust the wok toingredient feeding working position/supply ingredient.

F2/F3 heat-adjusting command: not relevant with the working position.

F9 pause command: turn off the heat/open the wok lid/stoprotating/adjust the wok to ingredient feeding working position.

F5 time delay command: maintain the previous state.

The above recipe program for fried sliced cabbage comprises steps asfollows: steps 1-4: heat the wok/add oil; steps 5-9: add accessoryingredients such as garlic and so on, and stir-fry them; steps 10-12:add cabbage ingredient; steps 13-15: turn the fire up and stir-fry for100s; steps 16-18: keep stir-frying and meanwhile add seasoning; steps19-22: keep stir-frying for 100s and turn the fire off, then keepstir-frying for 100s with the remaining heat of the wok, then halt themachine, the dish is finished to be discharged.

From the above, the programmable controlled intelligent cooking machineprovided by the present invention has advantages as follows:

1. Maximum compatibility. It is capable of running the recipe programprogrammed with all complex general recipe commands (e.g. vmmda1.0),interpreting and executing the recipe program according to the commandsequence, so as to perform various cooking operations and cook disheswith various flavors according to various recipe programs.

2. Minimum manual intervention (Except that the ingredient package ismanually placed into the ingredient chamber opening of the cookingmachine, all the rest operations are performed by the machine). It mayrealize functions such as automatically feeding major ingredient,automatically adding accessory ingredient, automatically dischargingdish, automatically washing wok and so on, whereby realizingfull-automatic cooking.

3. It may accept the recipe program programmed with general recipecommands in many ways. Users may program recipe programs by themselves,or directly call a large number of recipe programs of Chinese dishesstored in the machine, or input external recipe programs via thenetwork.

4. Generality. It supports general recipe commands so the recipe programmay be shared; it supports four-compartment standard package so themajor ingredient of Chinese dish may be standardizedproduced/stocked/transported/sold; it supports standard liquid packagefor accessory ingredients (condiment and seasoning) so the accessoryingredients may be standardized produced/stocked/transported/sold.

The foregoing descriptions are merely exemplary embodiments of thepresent invention, but are not intended to limit the present disclosure.Any modifications, equivalent substitutions, and improvements made bythose skilled in the art within the spirit and principle of the presentdisclosure shall fall within the protection scope of the presentdisclosure.

What is claimed is:
 1. A programmable controlled intelligent cookingmachine, characterized by comprising: a housing and a wok arrangedinside of the housing, an electromagnetic heating coil, a wok rotatingdevice, a wok working position controlling device, a wok lid and a woklid controlling device, an electromagnetic heating controlling device,an automatic ingredient feeding device, an automatic accessoryingredient adding device, an automatic dish discharging device, anautomatic wok washing device and an electrical control device; whereinthe electromagnetic heating coil winds around the external wall of thewok and heat the wok under the control of the electromagnetic heatingcontrolling device; the wok rotating device is connected with the wok soas to control the wok to rotate; the wok working position controllingdevice is used for securing the wok and controlling the wok to rotate,so as to drive the wok to rotate to corresponding working position toperform corresponding operation; the electrical control device is usedfor receiving preset recipe command and sending corresponding controlcommand according to the recipe command; the wok rotating device, thewok working position controlling device, the wok lid controlling device,the electromagnetic heating controlling device, the automatic ingredientfeeding device, the automatic accessory ingredient adding device, theautomatic dish discharging device and the automatic wok washing deviceare connected with the electrical control device, respectively, andperform corresponding operation according to the received controlcommand, whereby realizing full-automatic cooking.
 2. The programmablecontrolled intelligent cooking machine according to claim 1,characterized in that: the automatic ingredient feeding device isarranged right above the wok, the automatic ingredient feeding devicecomprises an ingredient feeding sub-controlling system, an ingredientreceiving component, a releasing component and an ingredient feedingguide groove, wherein the ingredient feeding sub-controlling system isconnected with the electrical control device so as to receive majoringredient feeding control command, the ingredient receiving componentand releasing component are used for receiving standard packagedingredient and releasing the received ingredient to the wok along theingredient feeding guide groove under the control of the ingredientfeeding sub-controlling system.
 3. The programmable controlledintelligent cooking machine according to claim 1, characterized in that:the electromagnetic heating controlling device comprises anelectromagnetic sub-controlling system, a wok temperature detector and ahigh frequency driving source, wherein the high frequency driving sourceis connected with the electromagnetic heating coil, the electromagneticsub-controlling system is connected with the electrical control device,so as to receive heating control command and control the intensity ofthe high frequency driving source according to the data detected by thewok temperature detector.
 4. The programmable controlled intelligentcooking machine according to claim 1, characterized in that: the wok lidcontrolling device comprises a wok lid sub-controlling system and a woklid push-pull component fixedly connected with the wok lid, wherein thewok lid sub-controlling system is connected with the electrical controldevice, so as to receive control command of opening or closing the woklid and control the wok lid push-pull component to pull or push the woklid, whereby realizing the opening and closing of the wok lid.
 5. Theprogrammable controlled intelligent cooking machine according to claim1, characterized in that: the automatic accessory ingredient addingdevice comprises an ingredient adding sub-controlling system, anaccessory ingredient pumping component and an accessory ingredientconduction pipe, wherein the ingredient adding sub-controlling system isconnected with the electrical control device so as to receive controlcommand of adding accessory ingredient, the wok lid is provided with anopening for connecting the accessory ingredient conduction pipe, theaccessory ingredient pumping component is connected with a plurality ofaccessory ingredient storage devices which store various liquidaccessory ingredients, and pumps out an appropriate amount of thecorresponding accessory ingredient and adds it into the wok via theaccessory ingredient conduction pipe under the control of the ingredientadding sub-controlling system.
 6. The programmable controlledintelligent cooking machine according to claim 1, characterized in that:the wok rotating device comprises a rotating sub-controlling system, amotor and a rotating shaft, wherein the rotating sub-controlling systemis connected with the electrical control device so as to receiverotating control command, the rotating shaft is fixedly connected withthe wok, the motor drives the rotating shaft to rotate under the controlof the rotating sub-controlling system and thus drives the wok torotate.
 7. The programmable controlled intelligent cooking machineaccording to claim 1, characterized in that: the wok working positioncontrolling device comprises a working position sub-controlling system,a position controlling detector, a motor, a main shaft and a wok frame,wherein the wok frame is used for securing the wok and is hold in thehousing by the main shaft, the working position sub-controlling systemis connected with the electrical control device, so as to receivevarious control commands, drive the main shaft to rotate on the basis ofvarious control commands and data detected by the position controllingdetector, and thus drive the wok to rotate to corresponding workingposition to perform corresponding operation.
 8. The programmablecontrolled intelligent cooking machine according to claim 1,characterized in that: the automatic wok washing device comprises a wokwashing sub-controlling system, a water infusing component, a wok brushstretching and retracting component, a rotatable wok washing componentand a waste water draining component, wherein the wok washingsub-controlling system is connected with the electrical control deviceso as to receive wok washing control command and control the waterinfusing component, the wok brush stretching and retracting component,the rotatable wok washing component and the waste water drainingcomponent to work, whereby finishing the wok washing operation.
 9. Theprogrammable controlled intelligent cooking machine according to claim1, characterized in that: the automatic dish discharging devicecomprises a dish discharging sub-controlling system, a tray, a trayconveying component and a dish discharging component, wherein the trayis used for carrying the dish plate, the dish dischargingsub-controlling system is connected with the electrical control device,so as to receive dish discharging control command and control the trayconveying component and the dish discharging component to work, wherebyfinishing the dish discharging operation.
 10. The programmablecontrolled intelligent cooking machine according to claim 1,characterized in that: it further comprises a human-computer interfaceconnected with the electrical control device and/or comprises a networkinterface, wherein users may directly input recipe command via thehuman-computer interface, or directly call the recipe program stored inthe cooking machine, and/or input recipe program via the networkinterface.